Anoplophora glabripennis
System : Terrestrial
Kingdom
Phylum
Class
Order
Family
Animalia
Arthropoda
Insecta
Coleoptera
Cerambycidae
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  • Anoplophora glabripennis life cycle (Photo: Kenneth R. Law, USDA APHIS PPQ, www.forestryimages.org)
  • Anoplophora glabripennis adult (Photo: Kenneth R. Law, USDA APHIS PPQ, www.forestryimages.org)
  • Anoplophora glabripennis larvae (Photo: USDA APHIS, www.forestryimages.org)
  • Anoplophora glabripennis larvae (Photo: Kenneth R. Law, USDA APHIS PPQ, www.forestryimages.org)
  • Anoplophora glabripennis male (Photo: Michael Bohne, USDA Forest Service, www.forestryimages.org)
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Common name
ALB (English), Asian longhorned beetle (English), starry sky beetle (English), longicorne Asiatique (French), Asiatischer Laubholzkäfer (German)
Synonym
Anoplophora nobilis
Similar species
Alaus oculatus, Anoplophora chinensis, Eburia quadrigeminata, Glycobius speciosus, Leptoglossus occidentalis, Monochamus notatus, Monochamus oregonensis, Monochamus scutellatus, Monochamus titillator, Plectrodera scalator, Prionus laticollis, Rosalia funebris
Summary
The Asian longhorn beetle Anoplophora glabripennis is a large wood-boring beetle that is native to countries in Asia, such as Japan, Korea and China. The beetle spends most of its life within the inner wood of a variety of hardwood trees as larvae which tunnel and feed on the cambium layer, eventually killing the tree. It was first detected in New York 1996, although it is thought to have arrived in the 1980s in solid wood packing material from China. It has since been detected in Massachusetts, New Jersey, Illinois, California, Ontario (Canada) and parts of Europe. The Asian longhorn beetle threatens 30-35% of the trees in urban areas of eastern USA. The economic, ecological and aesthetic impacts on the United States would be devastating if the beetle continues to spread. Potential losses have been estimated in the tens to hundreds of billions of US dollars. Current control measures focus on rapidly delimiting new infestations, imposing quarantine and cutting down and burning of infected trees.
Species Description
Adult Asian longhorn beetles are jet-black with a luster; 20-35mm in length and 7-12mm in width, the base of the 11-segmented antennae is whitish with a blue-black colour; the antennae of male and female beetles are 1.5 and 1.3 times their body length, respectively; and each elytron has about 20 white (sometimes yellow) spots.

Please see PaDIL (Pests and Diseases Image Library) Species Content Page Beetles: Asian longhorn beetle for high quality diagnostic and overview images.

Lifecycle Stages
Asian longhorn beetles spend about 7 days within the pupal chamber as an adult before exiting the natal host (China). Longevity of female and male beetles was 42.5 days (14-66 days) and 20.6 days (3-50 days), respectively, on Populus spp. (China), and 73 days on A. saccharum (Keena 2000), and 103.9 days (44-131 days), 97.2 days (30-137 days) and 83.0 days (58-107 days) on A. platanoides, A. rubrum and S. nigra, respectively (Smith et al. 2002). Asian longhorn beetles are strong fliers and results from mass mark recapture studies show that 98% of adult beetles disperse less than 600m from their release point. However, Asian longhorn beetles dispersal potential over a single season was found to be 1,029m and 1,442m, for male and gravid female beetles, respectively (Smith et al. 2002).
Habitat Description
Habitats of the Asian longhorn beetle include urban (ornamentals), agricultural (windbreaks), rural (shelterbelts and hedgerows) and forests. In its native range, adult beetles infest deciduous trees, particularly species of Populus (15 poplar species), Salix (S. matsudana), Ulmus (U. pumila, U. laeuig), and Acer (A. buergerianum, A. davidii, A. grosseri, A. negundo, A. palmatum, A. palmatum cv. 'alropurpureum’, A. robustrum, A. saccharum, A. truncatum). Other species have been listed as hosts, including Aesculus chinensis (horsechestnut), Alnus sp., Betula platyphylla (birch), Elaeagnus angustifolia, Fraxinus sp., Hippophae rhamnoides L. ssp., Malus sylvestris, Sinensis (buckthorn), Platanus orientalis (london plane/sycamore), Prunus sp. (questionable), Pyrus communis (questionable), Robinia pseudoacacia (questionable) and Tilia tuan (lindens/basswood), some of which may not be suitable for beetle development (e.g. oviposition only), and others that need verification.
Reproduction
Sexual reproduction: female Asian longhorn beetles mate multiple times with a single male beetle, but will also mate with multiple male beetles. Female beetles continue to produce eggs throughout their life span. Male beetles display mate guarding. Differences in the nutrional quality of various host trees, including secondary substances, and/or structural features (i.e. bark thickness), likely influence the relative reproductive potential and longevity of the beetles.
Lifetime fecundity of Anoplophora glabripennis averaged 35 eggs/female (30-80 eggs) on Populus spp. (China), and 68 eggs/female on A. saccharum (Keena 2000), and 127.3, 46.8 and 30.7 viable eggs/female on A. platanoide, A. rubrum and S. nigra, respectively (Smith et al. 2002). Daily oviposition of viable eggs averaged 1.2, 0.46 and 0.36 eggs/d on A. platanoides, A. rubrum and S. nigra, respectively (fecundity declines at 0.48 eggs per week over the lifetime of female beetles) (Smith et al. 2002). Fecundity is negatively correlated with bark thickness (Smith et al. 2002). Pre-ovipositional period of the Asian longhorn beetles was 10.6, 16.7 and 15.8 days on A. platanoides, A. rubrum and S. nigra, respectively (Smith et al. 2002).
Nutrition
Adult Asian longhorn beetle are known to feed on leaves, petiole and twigs.They appear to attack healthy trees (under investigation), as well as stressed trees.
Pathway
The Asian longhorn beetle is transported on infested fire wood, containers, pallets & dunage.

Principal source:

Compiler: Michael T. Smith, Ph.D., USDA-ARS Beneficial Insects Introduction Research Lab, Newark, DE 19713 USA & IUCN/SSC Invasive Species Specialist Group (ISSG)

Review: Michael T. Smith, Ph.D., USDA-ARS Beneficial Insects Introduction Research Lab, Newark, DE 19713 USA.

Publication date: 2009-08-26

Recommended citation: Global Invasive Species Database (2024) Species profile: Anoplophora glabripennis. Downloaded from http://www.iucngisd.org/gisd/speciesname/Anoplophora+glabripennis on 24-04-2024.

General Impacts
The Asian longhorn beetle attacks hardwood tree species in the eastern United States, including many that are valued in both urban and forested areas. The beetle completes most of its life cycle inside the host tree, with adults emerging in spring. Adult beetles feed on twigs, leaf petioles and primary leaf veins. Eggs are injected under the bark surface where they hatch into larvae. Larvae tunnel under the bark and destroy the tree’s vascular system which disrupts sap flow of infested trees. Older larvae tunnel into the heartwood where their feeding slowly destroys the structural integrity of trees (Smith and Wu 2008). Trees are slowly killed over a 3-5 year period, although it may be longer.

In their native China about 40% of poplar plantations are known to have been damaged (ca. 2.3 million ha.) by the beetle. 240 cities or counties have been infested in 5 provinces alone (totaling 230 thousand ha), and, an estimated 50 million trees were cut down over a 3 year period in Ningxia Province alone (1991-1993). The beetle causes severe damage from 21-43 degrees north latitude and 100-127 degrees east longitude (represents 4 climatic zones in China: the Transitional Zone between the tropical zone to the south and the warm temperate zone to the north; and the warm temperate zone; the cool temperate zone, and the arid temperate zone).

In the United States, where the beetle was discovered in 1996, an estimated 30-35% of trees in urban eastern states are susceptible to its attack. If the beetle continues to expand its range the potential impacts would be devastating. Urban areas could lose as much as 35 percent of their tree canopy cover and 30 percent of their trees (1.2 billion trees), with an estimated loss of value of $669 billion (GAO 2006). The maple hardwood lumber and sugar maple syrup industries are also put at risk, and tourism associated with the famous fall colours of New England (Smith and Wu 2008). Loss of trees may also decrease property values, cause aesthetic damage and lessen environmental benefits such as cleaning air and water and providing energy-conserving shade. These losses are difficult to quantify (GAO 2006).

If the beetle spreads out of its current urban environment into natural forests, it has the potential to seriously alter the ecological diversity of the natural forests in North America, with additional impacts on wetlands. The potential impact to forests is the loss of 71 billion trees valued at over $2 trillion dollars (GAO 2006).

A further impact of the Asian longhorn beetle in the United States is the cost of eradication measures. “Collectively, from 1997 to 2006, APHIS and the states of New York, Illinois and New Jersey and local governments have spent more than $800 million on ALB eradication measures” (Smith and Wu 2008).

Management Info
The eradication programme implemented by the US Animal and Plant Health Inspection Service (APHIS) and its cooperators hinges on several elements: rapidly delimiting new infestations, imposing quarantine, and implementing control measures within the quarantine zone. When the Asian longhorn beetle is reported, intensive visual inspections are conducted throughout the neighborhood to delimit the infestation. Infested trees and those species considered to be at high-risk of attack within a radius of 400mtrs from the edge of the known infestation (the distance varies with locality) are felled and chipped. High-risk trees within a radius of a second 400mtrs are also either removed and chipped or injected with a systemic insecticide. APHIS and US Forest Service scientists and their collaborators have developed a method of using the systemic insecticide, imidacloprid, which has been shown to kill adult beetles while feeding on twigs and leaves, thereby helping to contain the spread of the beetle. The infested area is re-surveyed at least once a year for the next five years after beetles are found (Smith and Wu 2008).

The primary pathway by which the Asian longhorn beetle has reached the USA and other countries is in wood packing materials. The Asian longhorn beetle has been intercepted frequently at ports and found in warehouses throughout the United States. This pathway highlights the importance of quarantine and regulations as a first line of defense for countries against invasion by Asian longhorn beetle and other pests (Smith and Wu 2008).

Please follow this link for detailed information on preventative measures, integrated management, and physical, chemical and biological control measures that can be undertaken to prevent the spread of the Asian longhorn beetle

Countries (or multi-country features) with distribution records for Anoplophora glabripennis
ALIEN RANGE
NATIVE RANGE
  • china
  • hong kong
  • korea, democratic people's republic of
  • korea, republic of
Informations on Anoplophora glabripennis has been recorded for the following locations. Click on the name for additional informations.
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Impact information
The Asian longhorn beetle attacks hardwood tree species in the eastern United States, including many that are valued in both urban and forested areas. The beetle completes most of its life cycle inside the host tree, with adults emerging in spring. Adult beetles feed on twigs, leaf petioles and primary leaf veins. Eggs are injected under the bark surface where they hatch into larvae. Larvae tunnel under the bark and destroy the tree’s vascular system which disrupts sap flow of infested trees. Older larvae tunnel into the heartwood where their feeding slowly destroys the structural integrity of trees (Smith and Wu 2008). Trees are slowly killed over a 3-5 year period, although it may be longer.

In their native China about 40% of poplar plantations are known to have been damaged (ca. 2.3 million ha.) by the beetle. 240 cities or counties have been infested in 5 provinces alone (totaling 230 thousand ha), and, an estimated 50 million trees were cut down over a 3 year period in Ningxia Province alone (1991-1993). The beetle causes severe damage from 21-43 degrees north latitude and 100-127 degrees east longitude (represents 4 climatic zones in China: the Transitional Zone between the tropical zone to the south and the warm temperate zone to the north; and the warm temperate zone; the cool temperate zone, and the arid temperate zone).

In the United States, where the beetle was discovered in 1996, an estimated 30-35% of trees in urban eastern states are susceptible to its attack. If the beetle continues to expand its range the potential impacts would be devastating. Urban areas could lose as much as 35 percent of their tree canopy cover and 30 percent of their trees (1.2 billion trees), with an estimated loss of value of $669 billion (GAO 2006). The maple hardwood lumber and sugar maple syrup industries are also put at risk, and tourism associated with the famous fall colours of New England (Smith and Wu 2008). Loss of trees may also decrease property values, cause aesthetic damage and lessen environmental benefits such as cleaning air and water and providing energy-conserving shade. These losses are difficult to quantify (GAO 2006).

If the beetle spreads out of its current urban environment into natural forests, it has the potential to seriously alter the ecological diversity of the natural forests in North America, with additional impacts on wetlands. The potential impact to forests is the loss of 71 billion trees valued at over $2 trillion dollars (GAO 2006).

A further impact of the Asian longhorn beetle in the United States is the cost of eradication measures. “Collectively, from 1997 to 2006, APHIS and the states of New York, Illinois and New Jersey and local governments have spent more than $800 million on ALB eradication measures” (Smith and Wu 2008).

Red List assessed species 0:
Locations
UNITED STATES
Mechanism
[1] Parasitism
Outcomes
[1] Environmental Ecosystem - Habitat
  • [1] Habitat degradation
[1] Environmental Species - Population
  • [1] Plant/animal health
[4] Socio-Economic
  • [1] Damage to agriculture
  • [1] Damage to forestry
  • [1] Alteration of recreational use and tourism
  • [1] Other economic impact
Management information
The eradication programme implemented by the US Animal and Plant Health Inspection Service (APHIS) and its cooperators hinges on several elements: rapidly delimiting new infestations, imposing quarantine, and implementing control measures within the quarantine zone. When the Asian longhorn beetle is reported, intensive visual inspections are conducted throughout the neighborhood to delimit the infestation. Infested trees and those species considered to be at high-risk of attack within a radius of 400mtrs from the edge of the known infestation (the distance varies with locality) are felled and chipped. High-risk trees within a radius of a second 400mtrs are also either removed and chipped or injected with a systemic insecticide. APHIS and US Forest Service scientists and their collaborators have developed a method of using the systemic insecticide, imidacloprid, which has been shown to kill adult beetles while feeding on twigs and leaves, thereby helping to contain the spread of the beetle. The infested area is re-surveyed at least once a year for the next five years after beetles are found (Smith and Wu 2008).

The primary pathway by which the Asian longhorn beetle has reached the USA and other countries is in wood packing materials. The Asian longhorn beetle has been intercepted frequently at ports and found in warehouses throughout the United States. This pathway highlights the importance of quarantine and regulations as a first line of defense for countries against invasion by Asian longhorn beetle and other pests (Smith and Wu 2008).

Please follow this link for detailed information on preventative measures, integrated management, and physical, chemical and biological control measures that can be undertaken to prevent the spread of the Asian longhorn beetle

Bibliography
26 references found for Anoplophora glabripennis

Management information
Animal and Plant Health Inspection Service (APHIS), 2005. Plant Protection and Quarantine Asian longhorned beetle (Anoplophora glabripennis)
Summary: USDA-APHIS Plant Protection and Quarantine site holds information on the Asian longhorned beetle (ALB) including description, biology, hosts and survey procedures.
Canadian Food Inspection Agency (CFIA), 2005. Plant Pest Asian Long-horned Beetle, Anoplophora glabripennis
Summary: Available from: http://www.inspection.gc.ca/english/plaveg/protect/pestrava/asialong/asialonge.shtml [Accessed 23 May 2006]
Chen, Z., White, M.S., Keena, M.A., Poland, T.M. & Clark, E.L. 2008. Evaluation of vacuum technology to kill larvae of the Asian longhorned beetle, Anoplophora glabripennis (Coleoptera: Cerambycidae), and the emerald ash borer, Agrilus planipennis (Coleoptera: Buprestidae), in wood. Forest Products Journal 58(11): 87-93.
Dubois, T., Lund, J., Bauer, L.S. & Hajek, A.E. 2008. Virulence of entomopathogenic hypocrealean fungi infecting Anoplophora glabripennis. BioControl 53: 517-528.
European and Mediterranean Plant Protection Organization (EPPO), undated. Data Sheet on Anoplophora glabripennis
Summary: Available from: http://www.eppo.org/QUARANTINE/insects/Anoplophora_glabripennis/ANOLGL_ds.pdf [Accessed 5 March 2008]
Herard, F., Ciampitti, M., Maspero, M., Krehan, H., Benker, U., Boegel, C., Schrage, R., Bouhout-Delduc, L. & Bialooki, P. 2006. Anoplophora species in Europe: infestations and management processes. OEPP/EPPO Bulletin 36: 470-474.
H�rard, Franck., Hannes Krehan., Ullrich Benker., Carolin Boegel., Reiner Schrage., Ellena Chauvat., Mariangela Ciampitti., Matteo Maspero and Piotr Bialooki., 2005. Anoplophora in Europe: Infestations and Management responses. Proceedings, 16th U.S. Department of Agriculture interagency research forum on gypsy moth and other invasive species 2005 GTR-NE-337
International Plant Protection Convention (IPPC), 2002. International Standards for Phytosanitary Measures (ISPM) No. 15 (2002) with modifications to Annex I (2006) Guidelines for regulating wood packaging material in international trade ( PUBLICATION )
Summary: Available from: https://www.ippc.int/servlet/BinaryDownloaderServlet/133703_ISPM15_2002_with_Ann.pdf?filename=1152091663986_ISPM_15_2002_with_Annex1_2006_E.pdf&refID=133703 [Accessed November 20]
Morewood, W.D., Hoover, K., Neiner, P.R., McNeil, J.R. & Sellmer, J.C. 2004. Host tree resistance against the polyphagous wood-boring beetle Anoplophora glabripennis.Entomologia Experimentalis et Applicata 110: 79-86.
National Plant Protection Organization (NAPPO) Official Pest Report Feb 28th 2007. Update on the Asian Long-Horned Beetle (Anoplophora glabripennis) - Canada
Summary: Available from: http://www.pestalert.org/oprDetail_print.cfm?oprid=251 [Accessed 26 April 2007]
Poland, T.M., Haack, R.A., Petrice, T.R., Miller, D.L. & Bauer, L.S. 2006b. Laboratory evaluation of the toxicity of systemic insecticides for control of Anoplophora glabripennis and Plectrodera scalator (Coleoptera: Cerambycidae). Journal of Economic Entomology 99(1): 85-93.
Poland, T.M., Haack, R.A., Petrice, T.R., Miller, D.L., Bauer, L.S. & Gao, R. 2006a. Field evaluations of systemic insecticides for control of Anoplophora glabripennis (Coleoptera: Cerambycidae) in China. Journal of Economic Entomology 99(2): 383-392.
Ren, Y., Wang, Y., Barak, A.V., Wang, X., Liu, Y. & Dowsett, H.A. 2006. Toxicity of ethanedinitrile to Anoplophora glabripennis (Coleoptera: Cerambycidae) larvae. Journal of Economic Entomology 99(2): 308-312.
Shanley, P. Ryan and Ann E. Hajek., 2008. Environmental contamination with Metarhizium anisopliae from fungal bands for control of the Asian longhorned beetle, Anoplophora glabripennis (Coleoptera: Cerambycidae). Biocontrol Science and Technology, Volume 18, Issue 2 2008 , pages 109 - 120
Shanley, R.P. & Hajek, A.E. 2008. Environmental contamination with Metarhizium anisopliae from fungal bands for control of the Asian longhorned beetle, Anoplophora glabripennis (Coleoptera: Cerambycidae). Biocontrol Science and Technology 18(2): 109-120.
United States Government Accountability Office (GAO). 2006. Report to the Chairman, Committee on Resources, House of Representatives. Lessons Learned from Three Recent Infestations May Aid in Managing Future Efforts
Summary: Available from: http://www.gao.gov/new.items/d06353.pdf [Accessed 20 May 2006]
United States Government Accountability Office (GAO) GAO-06-353 Report, April 21, 2006. Invasive Forest Pests: Lessons Learned from Three Recent Infestations May Aid in Managing Future Efforts.
Summary: Invasive forest pests have seriously harmed our environment and imposed significant costs upon our economy. The U.S. Department of Agriculture (USDA) is the lead agency for responding to forest pests. This report evaluates the federal response to three invasive forest pests�the Asian longhorned beetle, the emerald ash borer, and the pathogen Phytophthora ramorum (P. ramorum).Specifically, GAO describes (1) the status of efforts to eradicate these species, (2) the factors affecting the success of those efforts, (3) overall forest health monitoring programs, (4) coordination and communication of the three pest response efforts, and (5) USDA�s use of panels of scientific experts to aid in the response efforts.
Available from: http://www.gao.gov/new.items/d06353.pdf [Accessed 20 May 2006]
University of Vermont Entomology Research Laboratory (UVM). 2008. Asian Longhorned Beetle.
Summary: Available from: http://www.uvm.edu/albeetle/ [Accessed 9 February 2009]
USDA-APHIS. 2008. USDA announces Asian longhorned beetle survey in Massachusetts.
Summary: Available from: http://www.aphis.usda.gov/newsroom/content/2008/09/albinma.shtml [Accessed 9 February 2009]
Walker, K. 2006. Asian longhorn beetle (Anoplophora glabripennis) Pest and Diseases Image Library. Updated on 24/09/2006 8:07:43 AM.
Summary: PaDIL (Pests and Diseases Image Library) is a Commonwealth Government initiative, developed and built by Museum Victoria s Online Publishing Team, with support provided by DAFF (Department of Agriculture, Fisheries and Forestry) and PHA (Plant Health Australia), a non-profit public company. Project partners also include Museum Victoria, the Western Australian Department of Agriculture and the Queensland University of Technology. The aim of the project is: 1) Production of high quality images showing primarily exotic targeted organisms of plant health concern to Australia. 2) Assist with plant health diagnostics in all areas, from initial to high level. 3) Capacity building for diagnostics in plant health, including linkage developments between training and research organisations. 4) Create and use educational tools for training undergraduates/postgraduates. 5) Engender public awareness about plant health concerns in Australia. PaDIL is available from : http://www.padil.gov.au/aboutOverview.aspx, this page is available from: http://www.padil.gov.au/viewPestDiagnosticImages.aspx?id=266 [Accessed 6 October 2006]
General information
CONABIO. 2008. Sistema de informaci�n sobre especies invasoras en M�xico. Especies invasoras - Insectos. Comisi�n Nacional para el Conocimiento y Uso de la Biodiversidad. Fecha de acceso.
Summary: English:
The species list sheet for the Mexican information system on invasive species currently provides information related to Scientific names, family, group and common names, as well as habitat, status of invasion in Mexico, pathways of introduction and links to other specialised websites. Some of the higher risk species already have a direct link to the alert page. It is important to notice that these lists are constantly being updated, please refer to the main page (http://www.conabio.gob.mx/invasoras/index.php/Portada), under the section Novedades for information on updates.
Invasive species - insects is available from: http://www.conabio.gob.mx/invasoras/index.php/Especies_invasoras_-_Insectos [Accessed 30 July 2008]
Spanish:
La lista de especies del Sistema de informaci�n sobre especies invasoras de m�xico cuenta actualmente con informaci�n aceca de nombre cient�fico, familia, grupo y nombre com�n, as� como h�bitat, estado de la invasi�n en M�xico, rutas de introducci�n y ligas a otros sitios especializados. Algunas de las especies de mayor riesgo ya tienen una liga directa a la p�gina de alertas. Es importante resaltar que estas listas se encuentran en constante proceso de actualizaci�n, por favor consulte la portada (http://www.conabio.gob.mx/invasoras/index.php/Portada), en la secci�n novedades, para conocer los cambios.
Especies invasoras - Insectos is available from: http://www.conabio.gob.mx/invasoras/index.php/Especies_invasoras_-_Insectos [Accessed 30 July 2008]
Mankin, R.W., Smith, M.T., Tropp, J.M., Atkinson, E.B. & Jong, D.Y. 2008. Detection of Anoplophora glabripennis (Coleoptera: Cerambycidae) larvae in different host trees and tissues by automated analyses of sound-impulse frequency and temporal patterns. Journal of Economic Entomology 101(3): 838-849.
Smith, M.T., Bancroft, J. & Tropp, J. 2002. Age-specific fecundity of Anoplophora glabripennis (Coleoptera: Cerambycidae) on three tree species infested in the United States. Environmental Entomology 31(1): 76-83.
Smith, M.T. & Wu, J. 2008. Asian longhorned beetle: renewed threat to northeastern USA and implications worldwide. International Pest Control (November-December): 311-316.
Wen, J., Li, Y., Xia, N. and Luo, Y. 1998. Study on Dispersal Pattern of Anoplophora glabripennis Adults in Poplar. Acta Ecologica Sinica 18(3): 269-277.
Zubrik, M., Kinca, A., Turani, M., Vakula, J. & Leontovyc, R. 2006. Invasive and quarantine pests in forests in Slovakia. OEPP/EPPO Bulletin 36: 402-408.
Contact
The following 7 contacts offer information an advice on Anoplophora glabripennis
Bancroft,
Jay
Population Modeler
Organization:
USDA-ARS Beneficial Insects Introduction Research Laboratory
Address:
501 South Chapel Street, Newark, DE 197133
Phone:
+1 302 7317330 x242
Fax:
+1 302 7376780
Lance,
Dave
Insect Behaviorist
Organization:
USDA-APHIS-PPQ, Otis Plant Protection Laboratory
Address:
Otis ANB Base, MA 02542, USA
Phone:
Fax:
Mastro,
Vic
Anoplophora glabripennis
Organization:
USDA-APHIS
Address:
USDA APHIS PPQ, Otis Plant Protection Center, Bldg. 1398, West Truck Road, Otis ANGB, MA 02542-5008
Phone:
+1 508 5639303
Fax:
+1 508 5644398
Skinner,
Margaret
Biological Control
Organization:
University of Vermont
Address:
Entomology Research Laboratory, 661 Spear Street, Burlington, VT 05405-0105, USA
Phone:
+1 802 6565440
Fax:
+1 802 6587710
Smith,
Michael T.
Research Entomologist
Organization:
USDA-ARS Beneficial Insects Introduction Research Laboratory
Address:
501 South Chapel Street, Newark, DE 197133, USA
Phone:
+1 302 7317330 x241
Fax:
+1 302 7376780
Wu,
Jinquan
Organization:
Research Associate
USDA, ARS, Beneficial Insects Introduction Research Laboratory
Address:
Dept. Entomology and Applied Ecology, University of Delaware
501 S. Chapel Street, Newark, DE 19713
Phone:
(302) 731-7330 ext. 243
Fax:
Zhong-qi,
Yang
Biology and Biological Control of Forest Pests
Organization:
Research Institute of Forest Protection
Address:
Chinese Academy of Forestry, Beijing 100091, China.
Phone:
+86 10 62889502
Fax:
+86 10 62884972
Anoplophora glabripennis
ALB, Asian longhorned beetle, starry sky beetle, longicorne Asiatique, Asiatischer Laubholzkäfer
Date assessed
Year published
Eicat category
Justification for EICAT assessment
Confidence rating
Mechanism(s) of maximum impact
Countries of most severe impact
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Recommended citation
(2024). Anoplophora glabripennis. IUCN Environmental Impact Classification for Alien Taxa (EICAT).